Efficiency Increase of Solar Heated Buildings by Thermal Activation of Construction Elements

Werner Lerch; Richard Heimrath; Andreas Heinz; Thomas Mach; Chrisitan Fink; Thomas Ramschak

doi:10.4028/www.scientific.net/AMM.887.659

Efficiency Increase of Solar Heated Buildings by Thermal Activation of Construction Elements

Werner Lerch, Richard Heimrath, Andreas Heinz, Thomas Mach, Chrisitan Fink, Thomas Ramschak

Institut für Wärmetechnik (3070)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

The Austrian project “solSPONGEhigh” examines the use of thermal activation of
building components in order to increase the solar fraction of the heat demand of buildings. The aim of the project is to evaluate, under which conditions a high solar fraction of a single family house (low energy building) can be achieved with solar technologies (PV and solar thermal, in this paper the focus is on solar thermal). Different heat supply systems based on solar thermal energy (basic or
complex supply systems) have been defined. The systems were modeled in the simulation environment TRNSYS, analyzed concerning their system behavior and further developed. The investigated systems range from classical monovalent heat supply systems, systems combined with solar thermal up to complex integrated hydraulic solutions. The heating of the building via concrete core activation was compared with a conventional underfloor heating system. A detailed analysis of the dynamic system and building simulation results shows that the system efficiency can be significantly increased, if solar heat is used to charge the storage capacity of the building structure directly. A further advantage when activating the building structure (primarily concrete) is the less
rapidly changing room air temperature with strongly fluctuating environmental conditions.

Originalsprache	englisch
Seiten (von - bis)	659-666
Seitenumfang	8
Fachzeitschrift	Applied Mechanics and Materials
Jahrgang	887
DOIs	https://doi.org/10.4028/www.scientific.net/AMM.887.659
Publikationsstatus	Veröffentlicht - 25 Jan. 2019

Schlagwörter

Betonkernaktivierung
Solarthermie

ASJC Scopus subject areas

Allgemeine Energie

Fields of Expertise

Sustainable Systems

Treatment code (Nähere Zuordnung)

Experimental

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10.4028/www.scientific.net/AMM.887.659

https://www.scientific.net/AMM.887.659

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title = "Efficiency Increase of Solar Heated Buildings by Thermal Activation of Construction Elements",

abstract = "The Austrian project “solSPONGEhigh” examines the use of thermal activation ofbuilding components in order to increase the solar fraction of the heat demand of buildings. The aim of the project is to evaluate, under which conditions a high solar fraction of a single family house (low energy building) can be achieved with solar technologies (PV and solar thermal, in this paper the focus is on solar thermal). Different heat supply systems based on solar thermal energy (basic or complex supply systems) have been defined. The systems were modeled in the simulation environment TRNSYS, analyzed concerning their system behavior and further developed. The investigated systems range from classical monovalent heat supply systems, systems combined with solar thermal up to complex integrated hydraulic solutions. The heating of the building via concrete core activation was compared with a conventional underfloor heating system. A detailed analysis of the dynamic system and building simulation results shows that the system efficiency can be significantly increased, if solar heat is used to charge the storage capacity of the building structure directly. A further advantage when activating the building structure (primarily concrete) is the less rapidly changing room air temperature with strongly fluctuating environmental conditions.",

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T1 - Efficiency Increase of Solar Heated Buildings by Thermal Activation of Construction Elements

AU - Lerch, Werner

AU - Heimrath, Richard

AU - Heinz, Andreas

AU - Mach, Thomas

AU - Fink, Chrisitan

AU - Ramschak, Thomas

PY - 2019/1/25

Y1 - 2019/1/25

N2 - The Austrian project “solSPONGEhigh” examines the use of thermal activation ofbuilding components in order to increase the solar fraction of the heat demand of buildings. The aim of the project is to evaluate, under which conditions a high solar fraction of a single family house (low energy building) can be achieved with solar technologies (PV and solar thermal, in this paper the focus is on solar thermal). Different heat supply systems based on solar thermal energy (basic or complex supply systems) have been defined. The systems were modeled in the simulation environment TRNSYS, analyzed concerning their system behavior and further developed. The investigated systems range from classical monovalent heat supply systems, systems combined with solar thermal up to complex integrated hydraulic solutions. The heating of the building via concrete core activation was compared with a conventional underfloor heating system. A detailed analysis of the dynamic system and building simulation results shows that the system efficiency can be significantly increased, if solar heat is used to charge the storage capacity of the building structure directly. A further advantage when activating the building structure (primarily concrete) is the less rapidly changing room air temperature with strongly fluctuating environmental conditions.

AB - The Austrian project “solSPONGEhigh” examines the use of thermal activation ofbuilding components in order to increase the solar fraction of the heat demand of buildings. The aim of the project is to evaluate, under which conditions a high solar fraction of a single family house (low energy building) can be achieved with solar technologies (PV and solar thermal, in this paper the focus is on solar thermal). Different heat supply systems based on solar thermal energy (basic or complex supply systems) have been defined. The systems were modeled in the simulation environment TRNSYS, analyzed concerning their system behavior and further developed. The investigated systems range from classical monovalent heat supply systems, systems combined with solar thermal up to complex integrated hydraulic solutions. The heating of the building via concrete core activation was compared with a conventional underfloor heating system. A detailed analysis of the dynamic system and building simulation results shows that the system efficiency can be significantly increased, if solar heat is used to charge the storage capacity of the building structure directly. A further advantage when activating the building structure (primarily concrete) is the less rapidly changing room air temperature with strongly fluctuating environmental conditions.

KW - Betonkernaktivierung

KW - Solarthermie

KW - thermal activation

KW - solarthermal

U2 - 10.4028/www.scientific.net/AMM.887.659

DO - 10.4028/www.scientific.net/AMM.887.659

M3 - Article

SN - 1660-9336

VL - 887

SP - 659

EP - 666

JO - Applied Mechanics and Materials

JF - Applied Mechanics and Materials

ER -

Efficiency Increase of Solar Heated Buildings by Thermal Activation of Construction Elements

Abstract

Schlagwörter

ASJC Scopus subject areas

Fields of Expertise

Treatment code (Nähere Zuordnung)

Zugriff auf Dokument

Fingerprint

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